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Innovation in the automotive industry sees the integration of artificial intelligence (AI), revolutionizing the way vehicles are designed, manufactured, operated, and maintained. AI technologies are playing a crucial role in innovation in the automotive industry by enhancing safety, improving efficiency, and enabling new levels of automation and connectivity in vehicles.
Thus it is of no surprise that we observe AI as a driving force of innovation in the automotive industry. Companies like Waymo, Tesla, and traditional automakers are heavily investing in innovation in the automotive industry and thus in autonomous vehicle development.
The company creating headway for innovation in the automotive industry through this technology has been Mercedes. In January 2023, Mercedes officially announced a great leap of innovation in the automotive industry. Their Driver Pilot ADAS, a level 3 autonomous driver assist system, achieved certification from the SAE, marking it as the first level 3 driver assist system to be approved in the U.S. (Nevada and Califonia at the time of writing) - having first achieved approval on European (Germany) roads back in 2022.
Level 3 AutomationWith this innovation in the automotive industry, officially known as “conditional automation,” the Level 3-ready autonomous vehicle possesses the capability to navigate itself under specific conditions. During these defined scenarios, the Automated Driving System (ADS) assumes control of all safety-critical functions. In suitable circumstances, the ADS is entrusted with the entire dynamic driving task, providing a seamless and hands-free driving experience. This innovation in the automotive industry marks a significant shift from lower autonomy levels where drivers must be attentive at all times.
However, this innovation in the automotive industry does not translate to the driver relinquishing all responsibility, whereby if the automation system determines that it requires the driver's intervention, it will prompt the driver to take over within a specific time frame.
As we watch the development of AI accelerate, it is only a matter of time before innovation in the automotive industry reaches new highs with higher levels of autonomous driving, ushering in an era where the driving experience is elevated by AI technology while still requiring the human touch when it matters most.
Automotive Internet of Things (IoT)Another recent innovation in the automotive industry is the Internet of Things (IoT). The term "Internet of Things" encompasses a network of myriad intricate entities, encompassing electronics, sensors, gateways, actuators, and platform hubs. These tangible entities establish interconnections and engage in seamless interactions through wireless networks.
Within this innovation in the automotive industry, the network of interconnected objects enables information to be exchanged autonomously among them, rendering them self-sufficient and free from the need for human intervention.
Regarding adding innovation to the automotive industry, IoT is being integrated into vehicle technology, whereby this interconnected network of devices, vehicles, and systems is revolutionizing the way we design, manufacture, operate, and maintain automobiles. IoT's innovation in the automotive industry is turning ordinary vehicles into "connected cars," enhancing safety, efficiency, and convenience. Below are ways in which innovation in the automotive industry is led by IoT.
Connectivity RedefinedIoT technology has opened the gateway to vehicle connectivity, where this innovation in the automotive industry allows cars to access the internet and communicate with other devices and services. The implications of this innovation in the automotive industry are far-reaching, as manufacturers can now deliver over-the-air software updates, ensuring that vehicles remain up-to-date with the latest features and security enhancements.
Furthermore, infotainment systems are enriched with cloud-based services and apps, offering drivers and passengers an entirely new in-car experience, expanding innovation in the automotive industry to the experiential.
Telematics: The Data RevolutionTelematics, a crucial aspect of the innovation in the automotive industry by IoT, involves the collection and transmission of vehicle data to a central platform for analysis. From this innovation in the automotive industry, the collected and transmitted data encompasses a wide array of information, from vehicle performance and location to fuel efficiency and driver behavior.
Fleet management companies aiming for innovation in the automotive industry are leveraging telematics to optimize their operations, reduce fuel consumption, and enhance driver safety. Through this innovation in the automotive industry, the ability to monitor and analyze data in real-time empowers businesses to make informed decisions and streamline their processes.
V2V and V2I CommunicationIoT-enabled vehicles are not just isolated entities on the road, whereby the innovation in the automotive industry in this area allows the engagement of Vehicle-to-Vehicle (V2V) and Vehicle-to-Infrastructure (V2I) communication. The innovation in the automotive industry of V2V communication allows vehicles to share critical information, such as speed, location, and movements, contributing to improved road safety. In emergency situations, this innovation in the automotive industry enables V2V to alert drivers to potential collisions or hazards, potentially preventing accidents.
The innovation in the automotive industry of V2I communication, on the other hand, facilitates interaction between vehicles and roadside infrastructure, including traffic lights and signs. Thus, this technology in the automotive industry will lead to more efficient traffic management, reduced congestion, as well as enhanced performance of Advanced Driver Assistance Systems (ADAS).
The Promising Carbon Neutrality of E-Fuel
With an ever-growing demand to cut global carbon emissions, innovation in the automotive industry is becoming more crucial. The innovation in the automotive industry regarding decarbonization involves the development of a new type of fuel, known as e-fuel, which looks promising in tackling this global issue and, hence, a promising prospect of innovation in the automotive industry.
E-fuel is an alternative to fossil fuel, that is, a synthetic version of it, whereby the production of e-fuels involves the synergistic combination of hydrogen and carbon dioxide to produce a source of power that drives vehicles.
The process sparking the innovation in the automotive industry starts with the electrolysis, ideally fuelled by a renewable source of electricity, of water (H2O), which essentially splits water into its fundamental components of hydrogen (H) and oxygen (O), and thereafter, the hydrogen is mixed with carbon dioxide (CO2), or carbon monoxide (CO) to produce the liquid form of e-fuel.
Further processing of the liquid e-fuel produces various forms, such as e-petrol, e-diesel, e-kerosene, and e-methanol, as well as other derivatives.
The innovation in the automotive industry here facilitates carbon neutrality. The mixing of eco-friendly hydrogen with carbon dioxide captured directly from the atmosphere, with the electricity required in the process to be sourced from a renewable method, results in the complete decarbonization of e-fuel’s manufacturing process - an exceptional innovation in the automotive industry.
Article by Chi Cheng